The development of ionic currents during the growth of biological cells contributes to the generation of spatial order. A new instability is proposed to describe such phenomenon. The mechanism triggering the instability is based on electro-osmosis flow which generates aggregation of channels or pumps. The onset of unstable modes and the dispersion relation are determined and a comparison with a biological cell is provided
We develop a model for a driven cell or artificial membrane in an electrolyte. The system is kept f...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
Stationary and nonstationary spatiotemporal pattern formation emerging from the cellular electric ac...
Transcellular currents are involved in the generation of spatial order during the growth of numerou...
International audienceThe activity of biological cells involves often the electric activity of its m...
Survival of mammalian cells is achieved by tight control of cell volume while transmembrane potentia...
Survival of mammalian cells is achieved by tight control of cell volume while transmembrane potentia...
Stationary and nonstationary spatiotemporal pattern formations emerging from the cellular electric a...
Stationary spatiotemporal pattern formation emerging from the electric activity of biological membra...
AbstractAn electro-osmotic model is developed to examine the influence of plasma membrane superficia...
International audienceThe electric activity of biological cells and organs such as heart for example...
This theoretical study shows that one of the important functions of biological cells, i.e. the defor...
International audienceThe electric activity of biological cells and organs such as heart for example...
4 p.A salient feature of stationary patterns in tip-growing cells is the key role played by the symp...
We develop a model for a driven cell or artificial membrane in an electrolyte. The system is kept f...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
Stationary and nonstationary spatiotemporal pattern formation emerging from the cellular electric ac...
Transcellular currents are involved in the generation of spatial order during the growth of numerou...
International audienceThe activity of biological cells involves often the electric activity of its m...
Survival of mammalian cells is achieved by tight control of cell volume while transmembrane potentia...
Survival of mammalian cells is achieved by tight control of cell volume while transmembrane potentia...
Stationary and nonstationary spatiotemporal pattern formations emerging from the cellular electric a...
Stationary spatiotemporal pattern formation emerging from the electric activity of biological membra...
AbstractAn electro-osmotic model is developed to examine the influence of plasma membrane superficia...
International audienceThe electric activity of biological cells and organs such as heart for example...
This theoretical study shows that one of the important functions of biological cells, i.e. the defor...
International audienceThe electric activity of biological cells and organs such as heart for example...
4 p.A salient feature of stationary patterns in tip-growing cells is the key role played by the symp...
We develop a model for a driven cell or artificial membrane in an electrolyte. The system is kept f...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
Membrane tubes are structures ubiquitous in cells, and understanding their dynamics and morphology i...
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